Interfaces are lists of fields which may be implemented by object types.
An interface has fields, but it’s never actually instantiated. Instead, objects may implement interfaces, which makes them a member of that interface. Also, fields may return interface types. When this happens, the returned object may be any member of that interface.
For example, let’s say a Customer
(interface) may be either an Individual
(object) or a Company
(object). Here’s the structure in the GraphQL Schema Definition Language (SDL):
interface Customer {
name: String!
outstandingBalance: Int!
}
type Company implements Customer {
employees: [Individual!]!
name: String!
outstandingBalance: Int!
}
type Individual implements Customer {
company: Company
name: String!
outstandingBalance: Int!
}
Notice that the Customer
interface requires two fields, name: String!
and outstandingBalance: Int!
. Both Company
and Individual
implement those fields, so they can implement Customer
. Their implementation of Customer
is made explicit by implements Customer
in their definition.
When querying, you can get the fields on an interface:
{
customers(first: 5) {
name
outstandingBalance
}
}
Whether the objects are Company
or Individual
, it doesn’t matter – you still get their name
and outstandingBalance
. If you want some object-specific fields, you can query them with an inline fragment, for example:
{
customers(first: 5) {
name
... on Individual {
company { name }
}
}
}
This means, “if the customer is an Individual
, also get the customer’s company name”.
Interfaces are a good choice whenever a set of objects are used interchangeably, and they have several significant fields in common. When they don’t have fields in common, use a Union instead.
Interfaces are Ruby modules which include GraphQL::Schema::Interface
. First, make a base module:
module Types::BaseInterface
include GraphQL::Schema::Interface
end
Then, include that into each interface:
module Types::RetailItem
include Types::BaseInterface
description "Something that can be bought"
field :price, Types::Price, "How much this item costs", null: false
def price
# Optional: provide a special implementation of `price` here
end
# Optional, see below
definition_methods do
# Optional: if this method is defined, it overrides `Schema.resolve_type`
def resolve_type(object, context)
# ...
end
end
end
Interface classes are never instantiated. At runtime, only their .resolve_type
methods are called (if they’re defined).
To define object types that implement this interface use the implements
method:
class Types::Car < Types::BaseObject
implements Types::RetailItem
# ... additional fields
end
class Types::Purse < Types::BaseObject
implements Types::RetailItem
# ... additional fields
end
Those object types will inherit field definitions from those interfaces.
Interfaces may provide field implementations along with the signatures. For example:
field :price, Types::Price, "How much this item costs", null: false
# Implement this field to return a `::Price` object
def price
::Price.from_cents(@object.price_in_cents)
end
This method will be called by objects who implement the interface. To override this implementation,
object classes can override the #price
method.
Read more in the Fields guide.
You can use definition_methods do ... end
to add helper methods to interface modules. By adding methods to definition_methods
:
include
this interface.This way, class methods are inherited when interfaces include
other interfaces. (definition_methods
is like ActiveSupport::Concern
’s class_methods
in this regard, but it has a different name to avoid naming conflicts).
For example, you can add definition helpers to your base interface, then use them in concrete interfaces later:
# First, add a helper method to `BaseInterface`'s definition methods
module Types::BaseInterface
include GraphQL::Schema::Interface
definition_methods do
# Use this to add a price field + default implementation
def price_field
field(:price, ::Types::Price, null: false)
define_method(:price) do
::Price.from_cents(@object.price_in_cents)
end
end
end
end
# Then call it later
module Types::ForSale
include Types::BaseInterface
# This calls `price_field` from definition methods
price_field
end
The type definition DSL uses this mechanism, too, so you can override those methods here also.
When a field’s return type is an interface, GraphQL has to figure out what specific object type to use for the return value. In the example above, each customer
must be categorized as an Individual
or Company
. You can do this by:
Schema.resolve_type
method; OR.resolve_type
method in definition_methods
.This method will be called whenever an object must be disambiguated. For example:
module Types::RetailItem
include Types::BaseInterface
definition_methods do
# Determine what object type to use for `object`
def resolve_type(object, context)
if object.is_a?(::Car) || object.is_a?(::Truck)
Types::Car
elsif object.is_a?(::Purse)
Types::Purse
else
raise "Unexpected RetailItem: #{object.inspect}"
end
end
end
end
If you add an object type which implements an interface, but that object type doesn’t properly appear in your schema, then you need to add that object to the interfaces’s orphan_types
, for example:
module Types::RetailItem
include Types::BaseInterface
# ...
orphan_types Types::Comment
end
Alternatively you can add the object types to the schema’s orphan_types
:
class MySchema < GraphQL::Schema
orphan_types Types::Comment
end
This is required because a schema finds it types by traversing its fields, starting with query
, mutation
and subscription
. If an object is never the return type of a field, but only connected via an interface, then it must be explicitly connected to the schema via orphan_types
. For example, given this schema:
type Query {
node(id: ID!): Node
}
interface Node {
id: ID!
}
type Comment implements Node {
id: ID!
}
Comment
must be added via orphan_types
since it’s never used as the return type of a field. (Only Node
and ID
are used as return types.)